Magnetic field control method and apparatus used in conjunction with a charged particle cancer therapy system
a cancer therapy system and magnetic field control technology, applied in the field of solid cancer treatment, can solve the problems of large radiation being delivered outside of the tumor, x-rays not optimal for cancerous tissue treatment, and dangerous benign tumors in confined places
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example i
[0172]In one example, the initial cross-section distance 810 is about fifteen centimeters and the final cross-section distance 820 is about ten centimeters. Using the provided numbers, the concentration of the magnetic field is about 15 / 10 or 1.5 times at the incident surface 670 of the gap 510, though the relationship is not linear. The taper 860 has a slope, such as about 20 to 60 degrees. The concentration of the magnetic field, such as by 1.5 times, leads to a corresponding decrease in power consumption requirements to the magnets.
[0173]Referring now to FIG. 9, an additional example of geometry of the magnet used to concentrate the magnetic field is illustrated. As illustrated in FIG. 8, the first magnet section 610 preferably contains an initial cross sectional distance 810 of the iron based core. The contours of the magnetic field are shaped by the magnet sections 610, 620 and the yokes 612, 622. In this example, the core tapers to a second cross sectional distance 820 with a ...
example ii
[0180]Referring now to FIG. 11, an example is used to clarify the magnetic field control using a feedback loop 1100 to change delivery times and / or periods of proton pulse delivery. In one case, a respiratory sensor 1110 senses the breathing cycle of the subject. The respiratory sensor sends the information to an algorithm in a magnetic field controller 1120, typically via the patient interface module 150 and / or via the main controller 110 or a subcomponent thereof. The algorithm predicts and / or measures when the subject is at a particular point in the breathing cycle, such as at the bottom of a breath. Magnetic field sensors 1130, such as the high precision magnetic field sensor 1050, are used as input to the magnetic field controller, which controls a magnet power supply 1140 for a given magnetic field 1150, such as within a first turning magnet 410 of a synchrotron 130. The control feedback loop is thus used to dial the synchrotron to a selected energy level and deliver protons w...
example iii
[0183]Referring again to FIG. 10, an example of a winding coil 1030 that covers four turning magnets 410, 420, 430, 440 is provided. As described, supra, this system reduces space between turning section allowing more magnetic field to be applied per radian of turn. A first correction coil 1010 is illustrated that is used to correct the magnetic field for the first turning magnet 410. Individual correction coils for each turning magnet are preferred and individual correction coils yield the most precise and / or accurate magnetic field in each turning section. Particularly, the individual correction coil 1010 is used to compensate for imperfections in the individual magnet of a given turning section. Hence, with a series of magnetic field sensors, corresponding magnetic fields are individually adjustable in a series of feedback loops, via a magnetic field monitoring system 1030, as an independent coil is used for each turning section magnet. Alternatively, a multiple magnet correction...
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